论文信息 - An experimental investigation on the basic mechanisms involved in ultrasonic machining

An experimental investigation on the basic mechanisms involved in ultrasonic machining

Abstract Ultrasonic machining is used for machining hard and brittle materials. The mechanism of removal is complex but it is generally accepted that for non-porous materials the mostimportant constituent processes are the direct hammering of abrasives by the tool and high velocity impact of free moving abrasive particles on the work surface. This paper deals with a simple but effective approach using a profile relocation technique to study the relative role of the two processes. A mild steel tool was used with boron carbide abrasive to machine high speed steel, tungsten carbide and plate glass workpieces the design of which enables the two processes to be separated. Removal is found to be primarily by hammering.

V. Radhakrishnan | V. Soundararajan | V. Radhakrishnan | V. Soundararajan

[1] A. Moisan,et al. The State of the Art of Ultrasonic Machining , 1981 .

[2] W. Pentland,et al. Improving Ultrasonic Machining Rates—Some Feasibility Studies , 1965 .

[3] Hardness of Rough Surfaces , 1971 .

[4] B. T. Achyutha,et al. Application of a relocation technique to the study of surface production in electrochemical machining and electrodischarge machining , 1981 .

[5] S. D. Probert,et al. A three-dimensional relocation profilometer stage , 1977 .